Molecular spherical nucleic acids

Hui Li; Bohan Zhang; Xueguang Lu; Xuyu Tan; Fei Jia; Yue Xiao; Zehong Cheng; Li Yang; Dagoberto O. Silva; Henri Stephan Schrekker; Ke Zhang; Chad A. Mirkin

doi:10.1073/pnas.1801836115

Molecular spherical nucleic acids

Hui Li(Hunan University), Bohan Zhang(Hunan University), Xueguang Lu(Northeastern University), Xuyu Tan(Northeastern University), Fei Jia(Northeastern University), Yue Xiao(Hunan University), Zehong Cheng(Hunan University), Li Yang(Hunan University), Dagoberto O. Silva(Northwestern University), Henri Stephan Schrekker(Universidade Federal do Rio Grande do Sul), Ke Zhang(Northeastern University), Chad A. Mirkin(Northwestern University)

Proceedings of the National Academy of Sciences

April 9, 2018

10.1073/pnas.1801836115

Cited by 153Open Access

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Abstract

Significance Spherical nucleic acids (SNAs) made thus far are inherently polydisperse due to variations in surface nucleic acid density, particle size, or both. In this article, we describe the synthesis and characterization of two types of molecular SNAs with precise numbers of surface DNA strands using T 8 polyoctahedral silsesquioxane and buckminsterfullerene C 60 scaffolds. The surface DNA densities for these molecular structures fall inside the range of typical SNAs, which allows them to exhibit SNA-related properties, including enhanced cellular uptake and the ability to function as a gene regulation agent. With a route to molecularly pure SNAs opened, it becomes possible to use them to unveil the molecular details of SNA interactions with complementary ligands and living systems.

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